ADVANCE INFORMATION - COMPANY CONFIDENTIAL PI3HDMI101-B 1:1 Active HDMI™ ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Features Description ÎÎSupply voltage, VDD = 3.3V ±5% Pericom Semiconductor’s PI3HDMI101-B 1:1 active ReDriver™ circuit is targeted for high-resolution video networks that are based on DVI/HDMI™ standards and TMDS signal processing. The PI3HDMI101-B is an active ReDriver with Hi-Z outputs. The device receives differential signals from selected video components and drives the video display unit. This solution also provides a unique advanced pre-emphasis technique to increase rise and fall times which are reduced during transmission across long distances. ÎÎSupport for both DVI and HDMI™ signals ÎÎSupports both AC-coupled and DC-coupled inputs ÎÎSupports DeepColor™ ÎÎHigh ÎÎ5V Performance, up to 2.5 Gbps per channel Tolerance on I2C path ÎÎIntegrated 50-ohm (±10%) termination resistors at each high speed signal input ÎÎIntegrated Each complete HDMI/DVI channel also has slower speed, side band signals, that are required to be switched. Pericom’s solution provides a complete solution by integrating the side band buffer together with the high speed buffer in a single solution. Using Equalization at the input of each of the high speed channels, Pericom can successfully eliminate deterministic jitter caused by long cables from the source to the sink. The elimination of the deterministic jitter allows the user to use much longer cables (up to 25 meters). Rx termination detection circuit ÎÎConfigurable output swing control (400mV, 500mV, 600mV, 750mV, 1000mV) ÎÎConfigurable Pre-Emphasis levels (0dB, 1.5dB, 3.5dB, & 6.0dB, 9.0dB) ÎÎConfigurable De-Emphasis (0dB, -3.5dB, -6.0dB, -9.5dB) ÎÎOptimized ÎÎSingle Equalization The maximum DVI/HDMI Bandwidth of 2.5 Gbps provides 36bit DeepColor™ support, which is offered by HDMI revision 1.3. The PI3HDMI101-B also provides enhanced robust ESD/EOS protection of 8kV, which is required by many consumer video networks today. default setting will support all cable lengths ÎÎ8kV Contact ESD protection on all input data/clock channels per IEC61000-4-2 ÎÎHot insertion support on output high speed pins & SCL/SDA pins only ÎÎPropagation ÎÎHigh The Optimized Equalization provides the user a single optimal setting that can provide HDMI compliance for all cable lengths: 1 meter to 20 meters and color depths of 8bit/ch, or 12bit/ch. delay ≤ 1ns Impedance Outputs when disabled ÎÎPackaging Pericom also offers the ability to fine tune the equalization settings in situations where cable length is known. For example, if 25 meter cable length is required, Pericom's solution can be adjusted to 16dB EQ to accept 25 meter cable length. (Pb-free & Green): 42-contact TQFN (ZH42) Using Pericom's patent-pending Rx termination detection circuit, PI3HDMI101-B can automatically disable its own input 50-Ohm termination when no 50-Ohm termination is detected in the HDMI Rx chipset. If a switch is used between the PI3HDMI101-B and the HDMI Rx, our part can detect the 50-Ohm termination in the switch to determine if our input should be off or on. All trademarks are property of their respective owners. 13-0005 1 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry IADJ SCL_R SDA_R SDA_T Pin Configuration EQ_S0 EQ_S1 GND IN_CLK– IN_CLK+ VDD IN_D0– IN_D0+ GND IN_D1– IN_D1+ VDD IN_D2– IN_D2+ GND RxSENSE DCC_EN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 42 41 40 39 GND 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 SCL_T VDD GND OUT_CLK– OUT_CLK+ VDD OUT_D0– OUT_D0+ GND OUT_D1– OUT_D1+ VDD OUT_D2– OUT_D2+ GND VDD OC_S3 OE OC_S0 OC_S1 OC_S2 18 19 20 21 TMDS Receiver Block Each high speed data and clock input has integrated equalization that can eliminate deterministic jitter caused by input cables. All activity can be configured using pin strapping. The Rx block is designed to receive all relevant signals directly from the HDMI™ connector without any additional circuitry, 3 High speed TMDS data, 1 pixel clock, and DDC signals. TMDS channels have the following termination scheme for Rx Sense support. The switching between 50-Ohm termination vs. 250K-Ohm termination is done automatically. The PI3HDMI101-B monitors the 50-Ohm termination in the Rx chipset behind our part, and when this 50-Ohm termination is not present, we disable our 50-Ohm termination at our input. DD K- IN_Dx+/-, IN_CLK+/- All trademarks are property of their respective owners. 13-0005 2 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry I2C Buffer IADJ,DDC_EN BufferT PortR PortT BufferR The VOL of the Buffer R is around 0.2V. The VOL of the Buffer T is around 0.7V. Functional Truth Tables IADJ External Pull-Up Range H 1K-Ohm to 2K-Ohm (HDMI spec) L > 3K-Ohm (4.7K-Ohm typically) DDC_EN Port T / Port R (if no external pull-up resistor L Hi-Z (I2C buffer disable) H (I2C buffer enable) All trademarks are property of their respective owners. 13-0005 3 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Pin Description Pin # Pin Name I/O Description 5 IN_CLK+ 8 IN_D0+ 11 IN_D1+ I TMDS Positive inputs 14 IN_D2+ 4 IN_CLK- 7 IN_D0- 10 IN_D1- I TMDS Negative inputs 13 IN_D2- 3, 9, 15, 24, 30, 36 GND P Ground 18 OE I Output Enable, Active LOW 41 SCL_R I/O DDC Clock , Source Side 40 SDA_R I/O DDC Data, Source Side 6, 12, 16, 23, 27, 33, 37 VDD P 3.3V Power Supply 34 OUT_CLK+ 31 OUT_D0+ 28 OUT_D1+ O TMDS positive outputs 25 OUT_D2+ 35 OUT_CLK- 32 OUT_D0- 29 OUT_D1- O TMDS negative outputs 26 OUT_D2- 1 EQ_S0 2 EQ_S1 I Equalizer controls, both pins with internal pull-ups 19 OC_S0 20 21 OC_S1 OC_S2 22 OC_S3 17 DDC_EN I I2C path enable 38 SCL_T I/O DDC Clock, Sink side 39 SDA_T I/O DDC Data, Sink side 42 IADJ I High/Low Voltage Selection, depends on I2C external pull-up range All trademarks are property of their respective owners. Output buffer controls I 13-0005 Note: All 4 pins have internal pull-ups 4 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Complete high speed input Rx block is as follows:(1) _S0 _S1 _S2 _S E EQ_S0 EQ_S1 2 2 0Ω IN_ 1 + 2 2 0Ω R e c e iv e r with E Q 1 IN_ 2 2 0Ω 1 IN_D0+ VDD 2 DS 1 IN_D1+ _ - VDD R e c e iv e r with E Q DS _D0+ DS _D1+ _D1- DS _D2+ IN_D02 + 2 0Ω 1 2 0Ω _ 2 _D0- VDD 2 0Ω R e c e iv e r with E Q 1 IN_D12 2 0Ω IN_D2+ 1 2 VDD 2 0Ω 1 R e c e iv e r with E Q IN_D2- _D2- I D DD _EN All trademarks are property of their respective owners. 13-0005 5 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Truth Table OE Function 0 Active 1 All TMDS outputs are Hi-Z Truth Table 1 OC_S3(2) OC_S2(2) OC_S1(2) OC_S0(2) Vswing(mv) Pre/de-emphasis 1 1 1 1 500 0dB 1 1 1 0 600 0dB 1 1 0 1 750 0dB 1 1 0 0 1000 0dB 1 0 1 1 500 0dB 1 0 1 0 500 1.5dB 1 0 0 1 500 3.5dB 1 0 0 0 500 6dB 0 1 1 1 400 0dB 0 1 1 0 400 3.5dB 0 1 0 1 400 6dB 0 1 0 0 400 9dB 0 0 1 1 1000 0dB 0 0 1 0 666 -3.5dB 0 0 0 1 500 -6dB 0 0 0 0 333 -9dB EQ Setting Value Logic Table EQ_S1(2) EQ_S0(2) Gain (dB) 1 1 Optimized Equalization (Default Setting) 1 0 8 0 1 3 0 0 15 Notes: 1.External pull-ups are required along SCL/SDA path 2.Internal 100K-Ohm pull-ups All trademarks are property of their respective owners. 13-0005 6 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Maximum Ratings (Above which useful life may be impaired. For user guidelines, not tested.) Storage Temperature..................................................... –65°C to +150°C Supply Voltage to Ground Potential.................................–0.5V to +4.0V DC Input Voltage................................................................–0.5V to VDD DC Output Current........................................................................ 120mA Power Dissipation............................................................................ 1.0W Note: Stresses greater than those listed under MAXIMUM RATINGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. Recommended Operating Conditions Symbol Parameter Min. Typ. Max. Units VDD Supply Voltage 3.135 3.3 3.465 V TA Operating free-air temperature 0 70 °C TMDS Differential Pins VID Receiver peak-to-peak differential input voltage 150 1560 mVp-p VIC Input common mode voltage 2 VDD + 0.01 V VDD TMDS output termination voltage 3.135 3.3 3.465 V RT Termination resistance 45 50 55 Ohm Signaling rate 0 2.5 Gbps Control Pins (OC_Sx, EQ_Sx, OE, DDC_EN) VIH LVTTL High-level input voltage 2 VDD VIL LVTTL Low-level input voltage GND 0.8 GND 5.5 V 0.7 x VDD 5.5 V -0.5 0.3 x VDD V -0.5 0.4 V V DDC Pins (SCL_R, SCL_T, SDA_R, SDA_T) VI(DDC) Input voltage I2C Pins (SCL_T, SDA_T) VIH High-level input voltage VIL Low-level input voltage VICL Low-level input voltage contention (1) I C Pins (SCL_R, SDA_R) 2 VIH High-level input voltage 0.7 x VDD 5.5 V VIL Low-level input voltage -0.5 0.3 x VDD V Notes: 1. V IL specification is for the first low level seen by the SCL/SDA lines. V ICL is for the second and subsequent low levels seen by the SCL_T/SDA_T lines. All trademarks are property of their respective owners. 13-0005 7 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry TMDS Compliance Test Results Item HDMI 1.3 Spec Pericom Product Spec Termination Supply Voltage, VDD 3.3V ≤ 5% 3.30 ± 5% Terminal Resistance 50-Ohm ± 10% 45 to 55-Ohm Single-ended high level output voltage, VH VDD ± 10mV VDD ±10mV Single-ended low level output voltage, VL ( VDD - 600mV) ≤ VL ≤ ( VDD- 400mV) ( VDD - 600mV) ≤ VL ≤ ( VDD 400mV) Single-ended output swing voltage, Vswing 400mV ≤ Vswing ≤ 600mV 400mV ≤ Vswing ≤ 600mV Single-ended standby (off) output voltage, Voff VDD ± 10mV VDD ± 10mV Operating Conditions Source DC Characteristics at TP1 Transmitter AC Characteristics at TP1 75ps ≤ Risetime/Falltime ≤ 0.4 Tbit Risetime/Falltime (20%-80%) (75ps ≤ tr/tf ≤ 242ps) @ 1.65 Gbps Intra-Pair Skew at Transmitter Connector, max Inter-Pair Skew at Transmitter Connector, max 0.15 Tbit (90.9ps @ 1.65 Gbps) 0.2 Tpixel (1.2ns @ 1.65 Gbps) 0.25 Tbit Clock Jitter, max (151.5ps @ 1.65 Gbps) 240ps 60ps max 100ps max 82ps max Sink Operating DC Characteristics at TP2 Input Differential Voltage Level, Vdiff Input Common Mode Voltage Level, VICM 150 ≤ Vdiff ≤ 1200mV 150mV ≤ VDIFF ≤ 1200mV ( VDD - 300mV) ≤ Vicm ≤ ( VDD37.5mV) ( VDD - 300mV) ≤ Vicm ≤ ( VDD37.5mV) Or Or VDD ±10% VDD ±10% Sink DC Characteristics When Source Disabled or Disconnected at TP2 Differential Voltage Level All trademarks are property of their respective owners. VDD ± 10mV 13-0005 VDD ±10mV 8 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Electrical Characteristics (over recommended operating conditions unless otherwise noted) Symbol Parameter Test Conditions ICC Supply Current VIH = VDD, VIL = VDD - 0.4V, RT = 50-Ohm, VDD = 3.3V PD Min. Data Inputs = 1.65 Gbps HDMI data pattern Power Dissipation CLK Inputs = 165 MHz clock Typ.(1) Max. Units 120 mA 400 mW 8 mA OC_Sx = Low, x = 0,1,2,3 ICCQ OE = HIGH, VDD = 3.3V, RxSense = LOW Standby Current TMDS Differential Pins VOH Single-ended high-level output voltage VDD10 VDD + 10 VOL Single-ended low-level output voltage VDD 600 VDD 400 Vswing Single-ended output swing voltage 400 600 VOD(O) Overshoot of output differential voltage VOD(U) VDD = 3.3V, RT = 50-Ohm Pre-emphasis/De-emphasis = 0dB mV 6% 15% Undershoot of output differential voltage 12% 25% ΔVOC(SS) Change in steady-state common-mode output voltage between logic states 0.5 5 mV |I(OS)| Short circuit output current 12 mA VODE(SS) Steady state output differential voltage VODE(PP) Peak-to-peak output differential voltage VI(open) Single-ended input voltage under high impedance input or open input R INT Input termination resistance OC_Sx = GND, Data Inputs = 250 Mbps HDMI data pattern, 2x Vswing 560 840 800 1200 II = 10µA VDD 10 VDD + mV 10 VIN = 2.9V 45 25 MHz pixel clock 50 mVp-p 55 ohm Control Pins (OE, DDC_EN, IADJ) IIH High-level digital input current VIH = 2V or VDD -10 10 µA IIL Low-level digital input current VI = GND or 0.8 V -10 10 µA VI = 5.5 V -50 50 VI = VDD -20 20 I C Pins (SCL_T, SDA_T) (T Port) 2 µA Iikg Input leakage current IOH High-level output current VO = 3.6 V -10 10 µA IIL Low-level input current VIL = GND -40 40 µA VOL Low-level output voltage 0.65 0.9 V IOL = 2.5 mA IADJ = H (Table Continued) All trademarks are property of their respective owners. 13-0005 9 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Electrical Characteristics (Cont..) Symbol Parameter Test Conditions CIO Input/output capacitance VOH(TTL)1 TTL High-level output voltage IOH = -8 mA VOL(TTL) 1 TTL Low-level output voltage IOL = 8 mA Min. Typ.(1) Max. VI = 5.0 V or 0 V, Freq = 100kHz 25 VI = 3.0 V or 0 V, Freq = 100kHz 10 Units pF 2.4 V 0.4 V Note: 1. Voh/Vol of external driver at the R and T ports. I2C Pins (SCL_R, SDA_R) (R Port) VI = 5.5 V -50 50 VI = VDD -20 20 High-level output current VO = 3.6 V -10 10 µA IIL Low-level input current VIL = GND -10 10 µA VOL Low-level output voltage IOL = 4 mA, IADJ = H 0.2 V CI Input capacitance VI = 5.0 V or 0 V, Freq = 100kHz 25 VI = 3.0 V or 0 V, Freq = 100kHz 10 Iikg Input leakage current IOH µA pF Switching Characteristics (over recommended operating conditions unless otherwise noted) Symbol Parameter Test Conditions Min. Typ.(1) Max. Units TMDS Differential Pins 2000 tpd Propagation delay tr Differential output signal rise time (20% - 80%) tf Differential output signal fall time (20% - 80%) tsk(p) Pulse skew 10 50 tsk(D) Intra-pair differential skew 23 50 tsk(o) Inter-pair differential skew(2) tjit(pp) Peak-to-peak output jitter from TMDS clock channel tjit(pp) Peak-to-peak output jitter from TMDS data channel tDE VDD = 3.3V, RT = 50-Ohm, pre-emphasis/de-emphasis = 0dB 75 240 75 240 100 pre-emphasis/de-emphasis = 0dB, Data Inputs = 1.65 Gbps HDMI data pattern CLK input = 165 MHz clock de-emphasis = -3.5dB, Data Inputs = 250 Mbps HDMI data pattern, CLK output = 25 MHz clock De-emphasis duration 15 30 18 50 ps 240 (Table Continued) All trademarks are property of their respective owners. 13-0005 10 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Switching Characteristics (Cont..) Symbol Parameter Test Conditions Min. Typ.(1) Max. tSX Select to switch output 10 ten Enable time 200 tdis Disable time 10 Units ns I C PINS (SCL_R, SDA_R, SCL_T, SDA_T) 2 Propagation delay time, low-to-high-level output SCL_T/SDA_T to SCL_R/SDA_R IADJ = VDD CLOAD = 300 pF 500 tPHL Propagation delay time, high-to-low-level output SCL_T/SDA_T to SCL_R/SDA_R Tbuffer : Rpu = 2K, Vpu = 3.0V 136 tPLH Propagation delay time, low-to-high-level output SCL_T/SDA_T to SCL_R/SDA_R tPHL Propagation delay time, high-to-low-level output SCL_T/SDA_T to SCL_R/SDA_R Rbuffer : Rpu = 1.2K, Vpu = 3.3V or Rpu = 1.8K, Vpu = 5V IADJ = GND CLOAD = 100 pF tPLH tr SCL_T/SDA_T Output signal rise time tf SCL_T/SDA_T Output signal fall time tr SCL_R/SDA_R Output signal rise time tf SCL_R/SDA_R Output signal fall time All trademarks are property of their respective owners. 13-0005 450 ns 136 999 See Fig. A 90 999 90 11 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Symbol Parameter tset t hold Test Conditions Min. Typ. Max. Enable to start condition 6 10 Enable after stop condition 6 10 Units ns IADJ=L 3.3V±10% VDD R=1.2kΩ L V DD RSCL/RSDA Input V CC /2 0.1V t PHL PULSE GENERATOR D.U.T. VIOUT VIN C=100pF L t PLH 3.3V±10% 80% 80% TSCL/TSDA Input 1.5V 20% 20% VOL tf tf IADJ=H 3.3V±10% VDD PULSE GENERATOR R=2kΩ L RSCL/RSDA Input 1.5V 0.1V t PHL D.U.T. VIN V DD VIOUT t PLH 5V±10% 80% C=300pF L 80% TSCL/TSDA Input 20% tf 20% tf V DD /2 VOL t PLH Figure A. I2C Timing Test Circuit and Definition All trademarks are property of their respective owners. 13-0005 12 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry TMDS output oscillation elimination The TMDS inputs do not incorporate a squelch circuit. Therefore, we recommend the input to be externally biased to prevent output oscillation. One pin will be pulled high to VDD with the other grounded through a 1.5K-Ohm resistor as shown. VDD RINT A RINT TMDS Receiver Y TMDS Driver Z B ss ss RT AVDD RT TMDS Input Fail-Safe Recommendation All trademarks are property of their respective owners. 13-0005 13 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Recommended Power Supply Decoupling Circuit Figure 1 is the recommended power supply decoupling circuit configuration. It is recommended to put 0.1µF decoupling capacitors on each VDD pins of our part, there are four 0.1µF decoupling capacitors are put in Figure 1 with an assumption of only four VDD pins on our part, if there is more or less VDD pins on our Pericom parts, the number of 0.1µF decoupling capacitors should be adjusted according to the actual number of VDD pins. On top of 0.1µF decoupling capacitors on each VDD pins, it is recommended to put a 10µF decoupling capacitor near our part’s VDD, it is for stabilizing the power supply for our part. Ferrite bead is also recommended for isolating the power supply for our part and other power supplies in other parts of the circuit. But, it is optional and depends on the power supply conditions of other circuits. 10µF Ferrite Bead From main power supply 0.1µF V DD 0.1µF V DD P e r ic o m P a r t 0.1µF V DD 0.1µF V DD Figure 1 Recommended Power Supply Decoupling Circuit Diagram All trademarks are property of their respective owners. 13-0005 14 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Requirements on the Decoupling Capacitors There is no special requirement on the material of the capacitors. Ceramic capacitors are generally being used with typically materials of X5R or X7R. Layout and Decoupling CapacitorPlacement Consideration i. Each 0.1µF decoupling capacitor should be placed as close as possible to each VDD pin. ii. VDD and GND planes should be used to provide a low impedance path for power and ground. iii. Via holes should be placed to connect to VDD and GND planes directly. iv. Trace should be as wide as possible v. Trace should be as short as possible. vi. The placement of decoupling capacitor and the way of routing trace should consider the power flowing criteria. vii. 10µF capacitor should also be placed closed to our part and should be placed in the middle location of 0.1µF capacitors. viii.Avoid the large current circuit placed close to our part; especially when it is shared the same VDD and GND planes. Since large current flowing on our VDD or GND planes will generate a potential variation on the VDD or GND of our part. Bypass noise V DD P la ne Power Flow G N D P la ne 0 .1 uF P e r ic o m P a r t Figure 2 Layout and Decoupling Capacitor Placement Diagram All trademarks are property of their respective owners. 13-0005 15 PS8956B 03/06/13 PI3HDMI101-B 1:1 Active HDMITM ReDriver™ with Optimized Equalization & I2C Buffer and RxTerm detection circuitry Application Information Supply Voltage All VDD pins are recommended to have a 0.01µF capacitor tied from VDD to GND to filter supply noise TMDS inputs Standard TMDS terminations have already been integrated into Pericom’s PI3HDM101-A device. Therefore, external terminations are not required. Any unused port must be left floating and not tied to GND. Package Mechanical: 42-pin, Low Profile Quad Flat Package (ZH42) Notes: 1. All dimensions are in millimeters. Angles in degrees. 2. Coplanarity applies to the exposed pad as well as the terminals. 3. Refer JEDEC MO-220. 4. Recommended land pattern is for reference only. 5. Thermal pad soldering area DATE: 11/14/12 DESCRIPTION: 42-contact Thin Fine Pitch Quad Flat No-Lead (TQFN) PACKAGE CODE: ZH42 DOCUMENT CONTROL #: PD-2035 REVISION:D 12-0529 Ordering Information Ordering Code Package Code Package Description PI3HDMI101-BZHE ZH 42-pin, Pb-free & Green TQFN Notes: • Thermal characteristics can be found on the company web site at www.pericom.com/packaging/ • E = Pb-free and Green • Adding an X Suffix = Tape/Reel • HDMI & DeepColor are trademarks of Silicon Image Pericom Semiconductor Corporation • 1-800-435-2336 • www.pericom.com All trademarks are property of their respective owners. 13-0005 16 PS8956B 03/06/13